2. Tunjice Healing Resort; Report on the processing of water from a Flaska bottle using a GDV camera

Course:

3 water samples, 100 measurements for each, carried out on 28 June 2011.

Measurement results:

Surface area

Average intensity

Entropy

RMS index

Tap water

9518

5686

1.195e+004

1.135e+004

FLASKA 5 Min.

1.395e+004

1.441e+004

1.832e+004

1.781e+004

FLASKA 1 Hour

2.169e+004

2.505e+004

1.488e+004

1.599e+004

Criterion

100.8

250

27.01

29.53

p-value

0.002544

0.006261

0.0007018

0.0007639

Conclusion:

The study showed that the Flaska bottle causes changes in water. A greater effect was noticeable in water which had been in a Flaska bottle for 1 hour. This water showed greater variation in surface area and intensity. Water which had only been in a Flaska bottle for 5 minutes showed an increased entropy and RMS index. The table displays the differences in values.

6 bottles in the test group and 6 bottles in the control group, carried out on 2 August 2012.

Measurement results:

The Flaska bottle showed a minor improvement in water droplet development structure, which is considered as a sign of higher water quality. Additional measurements with a larger number of samples are recommended.

Measurement example:

Overall impression 9 (ordinary bottle):

Nussdorf water is again identifiable, though slightly different: in this sample, previously immanent crystal formations have come into focus. Colouration is blurred towards the centre here as well, which applies to all the crystals. Crystals are transiently organic and complex to slightly branched. Very delicate water with anomalies in the edge and core regions

Overall impression 10 (Flaska): There is again a distinct similarity to sample no. 9. However, the available structural elements are enhanced: The “crystal flower” at the centre of the droplet photograph has a clearer and more colourful form. The droplets have a greater overall intensity and appear more vital.

6. Bion, Institute for electromagnetics and New Biology, Evapo testing

Course:

15 samples, 100 photos per sample, testing date: 28 August 201

Conclusion:

The remains of the drops of the tested C mineral water have a well pronounced edge, a circle of a varying thickness, as well as a variety of mineral structures. Their true complexity is only visible with a high-resolution microscope inspection with a 100x to 400x magnification, which is inevitable for a plausible sphericity index assessment. The sphericity index of the Flaska samples is typically higher (by 55%) than the one of the non-incubated water (p = 0.03). Also the sphericity index of the Flaska typically differs (by 44%) from the sphericity of the samples from the control Flaska (p = 0.008).

Measurement and testing summary

The described measurements examined water from a Flaska bottle from different perspectives and compared it to identical water which was not in a Flaska bottle. The measurements revealed different changes in the water: we have found a common denominator in the term “vibrationally structured water”. We would like to stress that this evidence is not recognized or dealt with by official science and accepted standards and is, for the time being, the subject of so-called alternative sciences.